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using System;
using System.Collections.Generic;
using UnityEngine.Rendering;
namespace UnityEngine.Experimental.Rendering.RenderGraphModule
{
/// <summary>
/// The mode that determines the size of a Texture.
/// </summary>
#region Resource Descriptors
public enum TextureSizeMode
{
Explicit,
Scale,
Functor
}
/// <summary>
/// Descriptor used to create texture resources
/// </summary>
public struct TextureDesc
{
public TextureSizeMode sizeMode;
public int width;
public int height;
public int slices;
public Vector2 scale;
public ScaleFunc func;
public DepthBits depthBufferBits;
public GraphicsFormat colorFormat;
public FilterMode filterMode;
public TextureWrapMode wrapMode;
public TextureDimension dimension;
public bool enableRandomWrite;
public bool useMipMap;
public bool autoGenerateMips;
public bool isShadowMap;
public int anisoLevel;
public float mipMapBias;
public bool enableMSAA; // Only supported for Scale and Functor size mode
public MSAASamples msaaSamples; // Only supported for Explicit size mode
public bool bindTextureMS;
public bool useDynamicScale;
public RenderTextureMemoryless memoryless;
public string name;
// Initial state. Those should not be used in the hash
public bool clearBuffer;
public Color clearColor;
void InitDefaultValues(bool dynamicResolution, bool xrReady)
{
useDynamicScale = dynamicResolution;
// XR Ready
if (xrReady)
{
slices = TextureXR.slices;
dimension = TextureXR.dimension;
}
else
{
slices = 1;
dimension = TextureDimension.Tex2D;
}
}
/// <summary>
/// TextureDesc constructor for a texture using explicit size
/// </summary>
/// <param name="width">Texture width</param>
/// <param name="height">Texture height</param>
/// <param name="dynamicResolution">Use dynamic resolution</param>
/// <param name="xrReady">Set this to true if the Texture is a render texture in an XR setting.</param>
public TextureDesc(int width, int height, bool dynamicResolution = false, bool xrReady = false)
: this()
{
// Size related init
sizeMode = TextureSizeMode.Explicit;
this.width = width;
this.height = height;
// Important default values not handled by zero construction in this()
msaaSamples = MSAASamples.None;
InitDefaultValues(dynamicResolution, xrReady);
}
/// <summary>
/// TextureDesc constructor for a texture using a fixed scaling
/// </summary>
/// <param name="scale">RTHandle scale used for this texture</param>
/// <param name="dynamicResolution">Use dynamic resolution</param>
/// <param name="xrReady">Set this to true if the Texture is a render texture in an XR setting.</param>
public TextureDesc(Vector2 scale, bool dynamicResolution = false, bool xrReady = false)
: this()
{
// Size related init
sizeMode = TextureSizeMode.Scale;
this.scale = scale;
// Important default values not handled by zero construction in this()
msaaSamples = MSAASamples.None;
dimension = TextureDimension.Tex2D;
InitDefaultValues(dynamicResolution, xrReady);
}
/// <summary>
/// TextureDesc constructor for a texture using a functor for scaling
/// </summary>
/// <param name="func">Function used to determnine the texture size</param>
/// <param name="dynamicResolution">Use dynamic resolution</param>
/// <param name="xrReady">Set this to true if the Texture is a render texture in an XR setting.</param>
public TextureDesc(ScaleFunc func, bool dynamicResolution = false, bool xrReady = false)
: this()
{
// Size related init
sizeMode = TextureSizeMode.Functor;
this.func = func;
// Important default values not handled by zero construction in this()
msaaSamples = MSAASamples.None;
dimension = TextureDimension.Tex2D;
InitDefaultValues(dynamicResolution, xrReady);
}
/// <summary>
/// Copy constructor
/// </summary>
/// <param name="input"></param>
public TextureDesc(TextureDesc input)
{
this = input;
}
/// <summary>
/// Hash function
/// </summary>
/// <returns>The texture descriptor hash.</returns>
public override int GetHashCode()
{
int hashCode = 17;
unchecked
{
switch (sizeMode)
{
case TextureSizeMode.Explicit:
hashCode = hashCode * 23 + width;
hashCode = hashCode * 23 + height;
hashCode = hashCode * 23 + (int)msaaSamples;
break;
case TextureSizeMode.Functor:
if (func != null)
hashCode = hashCode * 23 + func.GetHashCode();
hashCode = hashCode * 23 + (enableMSAA ? 1 : 0);
break;
case TextureSizeMode.Scale:
hashCode = hashCode * 23 + scale.x.GetHashCode();
hashCode = hashCode * 23 + scale.y.GetHashCode();
hashCode = hashCode * 23 + (enableMSAA ? 1 : 0);
break;
}
hashCode = hashCode * 23 + mipMapBias.GetHashCode();
hashCode = hashCode * 23 + slices;
hashCode = hashCode * 23 + (int)depthBufferBits;
hashCode = hashCode * 23 + (int)colorFormat;
hashCode = hashCode * 23 + (int)filterMode;
hashCode = hashCode * 23 + (int)wrapMode;
hashCode = hashCode * 23 + (int)dimension;
hashCode = hashCode * 23 + (int)memoryless;
hashCode = hashCode * 23 + anisoLevel;
hashCode = hashCode * 23 + (enableRandomWrite ? 1 : 0);
hashCode = hashCode * 23 + (useMipMap ? 1 : 0);
hashCode = hashCode * 23 + (autoGenerateMips ? 1 : 0);
hashCode = hashCode * 23 + (isShadowMap ? 1 : 0);
hashCode = hashCode * 23 + (bindTextureMS ? 1 : 0);
hashCode = hashCode * 23 + (useDynamicScale ? 1 : 0);
}
return hashCode;
}
}
#endregion
/// <summary>
/// The RenderGraphResourceRegistry holds all resource allocated during Render Graph execution.
/// </summary>
public class RenderGraphResourceRegistry
{
static readonly ShaderTagId s_EmptyName = new ShaderTagId("");
#region Resources
internal struct TextureResource
{
public TextureDesc desc;
public bool imported;
public RTHandle rt;
public int cachedHash;
public int firstWritePassIndex;
public int lastReadPassIndex;
public int shaderProperty;
public bool wasReleased;
internal TextureResource(RTHandle rt, int shaderProperty)
: this()
{
Reset();
this.rt = rt;
imported = true;
this.shaderProperty = shaderProperty;
}
internal TextureResource(in TextureDesc desc, int shaderProperty)
: this()
{
Reset();
this.desc = desc;
this.shaderProperty = shaderProperty;
}
void Reset()
{
imported = false;
rt = null;
cachedHash = -1;
firstWritePassIndex = int.MaxValue;
lastReadPassIndex = -1;
wasReleased = false;
}
}
internal struct RendererListResource
{
public RendererListDesc desc;
public RendererList rendererList;
internal RendererListResource(in RendererListDesc desc)
{
this.desc = desc;
this.rendererList = new RendererList(); // Invalid by default
}
}
#endregion
#region Helpers
class ResourceArray<T>
{
// No List<> here because we want to be able to access and update elements by ref
// And we want to avoid allocation so TextureResource stays a struct
T[] m_ResourceArray = new T[32];
int m_ResourcesCount = 0;
public void Clear()
{
m_ResourcesCount = 0;
}
public int Add(T value)
{
int index = m_ResourcesCount;
// Grow array if needed;
if (index >= m_ResourceArray.Length)
{
var newArray = new T[m_ResourceArray.Length * 2];
Array.Copy(m_ResourceArray, newArray, m_ResourceArray.Length);
m_ResourceArray = newArray;
}
m_ResourceArray[index] = value;
m_ResourcesCount++;
return index;
}
public ref T this[int index]
{
get
{
#if DEVELOPMENT_BUILD || UNITY_EDITOR
if (index >= m_ResourcesCount)
throw new IndexOutOfRangeException();
#endif
return ref m_ResourceArray[index];
}
}
}
#endregion
ResourceArray<TextureResource> m_TextureResources = new ResourceArray<TextureResource>();
Dictionary<int, Stack<RTHandle>> m_TexturePool = new Dictionary<int, Stack<RTHandle>>();
ResourceArray<RendererListResource> m_RendererListResources = new ResourceArray<RendererListResource>();
RTHandleSystem m_RTHandleSystem = new RTHandleSystem();
RenderGraphDebugParams m_RenderGraphDebug;
RenderGraphLogger m_Logger;
// Diagnostic only
List<(int, RTHandle)> m_AllocatedTextures = new List<(int, RTHandle)>();
#region Public Interface
/// <summary>
/// Returns the RTHandle associated with the provided resource handle.
/// </summary>
/// <param name="handle">Handle to a texture resource.</param>
/// <returns>The RTHandle associated with the provided resource handle.</returns>
public RTHandle GetTexture(in RenderGraphResource handle)
{
#if DEVELOPMENT_BUILD || UNITY_EDITOR
if (handle.type != RenderGraphResourceType.Texture)
throw new InvalidOperationException("Trying to access a RenderGraphResource that is not a texture.");
var res = m_TextureResources[handle.handle];
if (res.rt == null && !res.wasReleased)
throw new InvalidOperationException(string.Format("Trying to access texture \"{0}\" that was never created. Check that it was written at least once before trying to get it.", res.desc.name));
if (res.rt == null && res.wasReleased)
throw new InvalidOperationException(string.Format("Trying to access texture \"{0}\" that was already released. Check that the last pass where it's read is after this one.", res.desc.name));
#endif
return m_TextureResources[handle.handle].rt;
}
/// <summary>
/// Returns the RendererList associated with the provided resource handle.
/// </summary>
/// <param name="handle">Handle to a Renderer List resource.</param>
/// <returns>The Renderer List associated with the provided resource handle.</returns>
public RendererList GetRendererList(in RenderGraphResource handle)
{
#if DEVELOPMENT_BUILD || UNITY_EDITOR
if (handle.type != RenderGraphResourceType.RendererList)
throw new InvalidOperationException("Trying to access a RenderGraphResource that is not a RendererList.");
#endif
return m_RendererListResources[handle.handle].rendererList;
}
#endregion
#region Internal Interface
private RenderGraphResourceRegistry()
{
}
internal RenderGraphResourceRegistry(bool supportMSAA, MSAASamples initialSampleCount, RenderGraphDebugParams renderGraphDebug, RenderGraphLogger logger)
{
m_RTHandleSystem.Initialize(1, 1, supportMSAA, initialSampleCount);
m_RenderGraphDebug = renderGraphDebug;
m_Logger = logger;
}
internal void SetRTHandleReferenceSize(int width, int height, MSAASamples msaaSamples)
{
m_RTHandleSystem.SetReferenceSize(width, height, msaaSamples);
}
internal RTHandleProperties GetRTHandleProperties() { return m_RTHandleSystem.rtHandleProperties; }
// Texture Creation/Import APIs are internal because creation should only go through RenderGraph
internal RenderGraphMutableResource ImportTexture(RTHandle rt, int shaderProperty = 0)
{
int newHandle = m_TextureResources.Add(new TextureResource(rt, shaderProperty));
return new RenderGraphMutableResource(newHandle, RenderGraphResourceType.Texture);
}
internal RenderGraphMutableResource CreateTexture(in TextureDesc desc, int shaderProperty = 0)
{
ValidateTextureDesc(desc);
int newHandle = m_TextureResources.Add(new TextureResource(desc, shaderProperty));
return new RenderGraphMutableResource(newHandle, RenderGraphResourceType.Texture);
}
internal void UpdateTextureFirstWrite(RenderGraphResource tex, int passIndex)
{
ref var res = ref GetTextureResource(tex);
res.firstWritePassIndex = Math.Min(passIndex, res.firstWritePassIndex);
//// We increment lastRead index here so that a resource used only for a single pass can be released at the end of said pass.
//// This will also keep the resource alive as long as it is written to.
//// Typical example is a depth buffer that may never be explicitly read from but is necessary all along
///
// PROBLEM: Increasing last read on write operation will keep the target alive even if it's not used at all so it's not good.
// If we don't do it though, it means that client code cannot write "by default" into a target as it will try to write to an already released target.
// Example:
// DepthPrepass: Writes to Depth and Normal buffers (pass will create normal buffer)
// ObjectMotion: Writes to MotionVectors and Normal => Exception because NormalBuffer is already released as it not used.
// => Solution includes : Shader Combination (without MRT for example) / Dummy Targets
//res.lastReadPassIndex = Math.Max(passIndex, res.lastReadPassIndex);
}
internal void UpdateTextureLastRead(RenderGraphResource tex, int passIndex)
{
ref var res = ref GetTextureResource(tex);
res.lastReadPassIndex = Math.Max(passIndex, res.lastReadPassIndex);
}
ref TextureResource GetTextureResource(RenderGraphResource res)
{
return ref m_TextureResources[res.handle];
}
internal TextureDesc GetTextureResourceDesc(RenderGraphResource res)
{
return m_TextureResources[res.handle].desc;
}
internal RenderGraphResource CreateRendererList(in RendererListDesc desc)
{
ValidateRendererListDesc(desc);
int newHandle = m_RendererListResources.Add(new RendererListResource(desc));
return new RenderGraphResource(newHandle, RenderGraphResourceType.RendererList);
}
internal void CreateAndClearTexturesForPass(RenderGraphContext rgContext, int passIndex, List<RenderGraphMutableResource> textures)
{
foreach (var rgResource in textures)
{
ref var resource = ref GetTextureResource(rgResource);
if (!resource.imported && resource.firstWritePassIndex == passIndex)
{
CreateTextureForPass(ref resource);
if (resource.desc.clearBuffer || m_RenderGraphDebug.clearRenderTargetsAtCreation)
{
// Commented because string.Format causes garbage
//using (new ProfilingSample(rgContext.cmd, string.Format("RenderGraph: Clear Buffer {0}", resourceDescMoved.desc.name)))
bool debugClear = m_RenderGraphDebug.clearRenderTargetsAtCreation && !resource.desc.clearBuffer;
var name = debugClear ? "RenderGraph: Clear Buffer (Debug)" : "RenderGraph: Clear Buffer";
using (new ProfilingSample(rgContext.cmd, name))
{
var clearFlag = resource.desc.depthBufferBits != DepthBits.None ? ClearFlag.Depth : ClearFlag.Color;
var clearColor = debugClear ? Color.magenta : resource.desc.clearColor;
CoreUtils.SetRenderTarget(rgContext.cmd, resource.rt, clearFlag, clearColor);
}
}
LogTextureCreation(resource.rt, resource.desc.clearBuffer || m_RenderGraphDebug.clearRenderTargetsAtCreation);
}
}
}
void CreateTextureForPass(ref TextureResource resource)
{
var desc = resource.desc;
int hashCode = desc.GetHashCode();
if(resource.rt != null)
throw new InvalidOperationException(string.Format("Trying to create an already created texture ({0}). Texture was probably declared for writing more than once.", resource.desc.name));
resource.rt = null;
if (!TryGetRenderTarget(hashCode, out resource.rt))
{
// Note: Name used here will be the one visible in the memory profiler so it means that whatever is the first pass that actually allocate the texture will set the name.
// TODO: Find a way to display name by pass.
switch (desc.sizeMode)
{
case TextureSizeMode.Explicit:
resource.rt = m_RTHandleSystem.Alloc(desc.width, desc.height, desc.slices, desc.depthBufferBits, desc.colorFormat, desc.filterMode, desc.wrapMode, desc.dimension, desc.enableRandomWrite,
desc.useMipMap, desc.autoGenerateMips, desc.isShadowMap, desc.anisoLevel, desc.mipMapBias, desc.msaaSamples, desc.bindTextureMS, desc.useDynamicScale, desc.memoryless, desc.name);
break;
case TextureSizeMode.Scale:
resource.rt = m_RTHandleSystem.Alloc(desc.scale, desc.slices, desc.depthBufferBits, desc.colorFormat, desc.filterMode, desc.wrapMode, desc.dimension, desc.enableRandomWrite,
desc.useMipMap, desc.autoGenerateMips, desc.isShadowMap, desc.anisoLevel, desc.mipMapBias, desc.enableMSAA, desc.bindTextureMS, desc.useDynamicScale, desc.memoryless, desc.name);
break;
case TextureSizeMode.Functor:
resource.rt = m_RTHandleSystem.Alloc(desc.func, desc.slices, desc.depthBufferBits, desc.colorFormat, desc.filterMode, desc.wrapMode, desc.dimension, desc.enableRandomWrite,
desc.useMipMap, desc.autoGenerateMips, desc.isShadowMap, desc.anisoLevel, desc.mipMapBias, desc.enableMSAA, desc.bindTextureMS, desc.useDynamicScale, desc.memoryless, desc.name);
break;
}
}
//// Try to update name when re-using a texture.
//// TODO: Check if that actually works.
//resource.rt.name = desc.name;
#if DEVELOPMENT_BUILD || UNITY_EDITOR
if (hashCode != -1)
{
m_AllocatedTextures.Add((hashCode, resource.rt));
}
#endif
resource.cachedHash = hashCode;
}
void SetGlobalTextures(RenderGraphContext rgContext, List<RenderGraphResource> textures, bool bindDummyTexture)
{
foreach (var resource in textures)
{
var resourceDesc = GetTextureResource(resource);
if (resourceDesc.shaderProperty != 0)
{
if (resourceDesc.rt == null)
{
throw new InvalidOperationException(string.Format("Trying to set Global Texture parameter for \"{0}\" which was never created.\nCheck that at least one write operation happens before reading it.", resourceDesc.desc.name));
}
rgContext.cmd.SetGlobalTexture(resourceDesc.shaderProperty, bindDummyTexture ? TextureXR.GetMagentaTexture() : resourceDesc.rt);
}
}
}
internal void PreRenderPassSetGlobalTextures(RenderGraphContext rgContext, List<RenderGraphResource> textures)
{
SetGlobalTextures(rgContext, textures, false);
}
internal void PostRenderPassUnbindGlobalTextures(RenderGraphContext rgContext, List<RenderGraphResource> textures)
{
SetGlobalTextures(rgContext, textures, true);
}
internal void ReleaseTexturesForPass(RenderGraphContext rgContext, int passIndex, List<RenderGraphResource> readTextures, List<RenderGraphMutableResource> writtenTextures)
{
foreach (var resource in readTextures)
{
ref var resourceDesc = ref GetTextureResource(resource);
if (!resourceDesc.imported && resourceDesc.lastReadPassIndex == passIndex)
{
if (m_RenderGraphDebug.clearRenderTargetsAtRelease)
{
using (new ProfilingSample(rgContext.cmd, "RenderGraph: Clear Buffer (Debug)"))
{
var clearFlag = resourceDesc.desc.depthBufferBits != DepthBits.None ? ClearFlag.Depth : ClearFlag.Color;
CoreUtils.SetRenderTarget(rgContext.cmd, GetTexture(resource), clearFlag, Color.magenta);
}
}
ReleaseTextureForPass(resource);
}
}
// If a resource was created for only a single pass, we don't want users to have to declare explicitly the read operation.
// So to do that, we also update lastReadIndex on resource writes.
// This means that we need to check written resources for destruction too
foreach (var resource in writtenTextures)
{
ref var resourceDesc = ref GetTextureResource(resource);
// <= because a texture that is only declared as written in a single pass (and read implicitly in the same pass) will have the default lastReadPassIndex at -1
if (!resourceDesc.imported && resourceDesc.lastReadPassIndex <= passIndex)
{
ReleaseTextureForPass(resource);
}
}
}
void ReleaseTextureForPass(RenderGraphResource res)
{
Debug.Assert(res.type == RenderGraphResourceType.Texture);
ref var resource = ref m_TextureResources[res.handle];
// This can happen because we release texture in two passes (see ReleaseTexturesForPass) and texture can be present in both passes
if (resource.rt != null)
{
LogTextureRelease(resource.rt);
ReleaseTextureResource(resource.cachedHash, resource.rt);
resource.cachedHash = -1;
resource.rt = null;
resource.wasReleased = true;
}
}
void ReleaseTextureResource(int hash, RTHandle rt)
{
if (!m_TexturePool.TryGetValue(hash, out var stack))
{
stack = new Stack<RTHandle>();
m_TexturePool.Add(hash, stack);
}
stack.Push(rt);
#if DEVELOPMENT_BUILD || UNITY_EDITOR
m_AllocatedTextures.Remove((hash, rt));
#endif
}
void ValidateTextureDesc(in TextureDesc desc)
{
#if DEVELOPMENT_BUILD || UNITY_EDITOR
if (desc.colorFormat == GraphicsFormat.None && desc.depthBufferBits == DepthBits.None)
{
throw new ArgumentException("Texture was created with an invalid color format.");
}
if (desc.dimension == TextureDimension.None)
{
throw new ArgumentException("Texture was created with an invalid texture dimension.");
}
if (desc.slices == 0)
{
throw new ArgumentException("Texture was created with a slices parameter value of zero.");
}
if (desc.sizeMode == TextureSizeMode.Explicit)
{
if (desc.width == 0 || desc.height == 0)
throw new ArgumentException("Texture using Explicit size mode was create with either width or height at zero.");
if (desc.enableMSAA)
throw new ArgumentException("enableMSAA TextureDesc parameter is not supported for textures using Explicit size mode.");
}
if (desc.sizeMode == TextureSizeMode.Scale || desc.sizeMode == TextureSizeMode.Functor)
{
if (desc.msaaSamples != MSAASamples.None)
throw new ArgumentException("msaaSamples TextureDesc parameter is not supported for textures using Scale or Functor size mode.");
}
#endif
}
void ValidateRendererListDesc(in RendererListDesc desc)
{
#if DEVELOPMENT_BUILD || UNITY_EDITOR
if (desc.passName != ShaderTagId.none && desc.passNames != null
|| desc.passName == ShaderTagId.none && desc.passNames == null)
{
throw new ArgumentException("Renderer List creation descriptor must contain either a single passName or an array of passNames.");
}
if (desc.renderQueueRange.lowerBound == 0 && desc.renderQueueRange.upperBound == 0)
{
throw new ArgumentException("Renderer List creation descriptor must have a valid RenderQueueRange.");
}
if (desc.camera == null)
{
throw new ArgumentException("Renderer List creation descriptor must have a valid Camera.");
}
#endif
}
bool TryGetRenderTarget(int hashCode, out RTHandle rt)
{
if (m_TexturePool.TryGetValue(hashCode, out var stack) && stack.Count > 0)
{
rt = stack.Pop();
return true;
}
rt = null;
return false;
}
internal void CreateRendererLists(List<RenderGraphResource> rendererLists)
{
// For now we just create a simple structure
// but when the proper API is available in trunk we'll kick off renderer lists creation jobs here.
foreach (var rendererList in rendererLists)
{
Debug.Assert(rendererList.type == RenderGraphResourceType.RendererList);
ref var rendererListResource = ref m_RendererListResources[rendererList.handle];
ref var desc = ref rendererListResource.desc;
RendererList newRendererList = RendererList.Create(desc);
rendererListResource.rendererList = newRendererList;
}
}
internal void Clear()
{
LogResources();
m_TextureResources.Clear();
m_RendererListResources.Clear();
#if DEVELOPMENT_BUILD || UNITY_EDITOR
if (m_AllocatedTextures.Count != 0)
{
Debug.LogWarning("RenderGraph: Not all textures were released.");
List<(int, RTHandle)> tempList = new List<(int, RTHandle)>(m_AllocatedTextures);
foreach (var value in tempList)
{
ReleaseTextureResource(value.Item1, value.Item2);
}
}
#endif
}
internal void Cleanup()
{
foreach (var value in m_TexturePool)
{
foreach (var rt in value.Value)
{
m_RTHandleSystem.Release(rt);
}
}
}
void LogTextureCreation(RTHandle rt, bool cleared)
{
if (m_RenderGraphDebug.logFrameInformation)
{
m_Logger.LogLine("Created Texture: {0} (Cleared: {1})", rt.rt.name, cleared);
}
}
void LogTextureRelease(RTHandle rt)
{
if (m_RenderGraphDebug.logFrameInformation)
{
m_Logger.LogLine("Released Texture: {0}", rt.rt.name);
}
}
void LogResources()
{
if (m_RenderGraphDebug.logResources)
{
m_Logger.LogLine("==== Allocated Resources ====\n");
List<string> allocationList = new List<string>();
foreach (var stack in m_TexturePool)
{
foreach (var rt in stack.Value)
{
allocationList.Add(rt.rt.name);
}
}
allocationList.Sort();
int index = 0;
foreach (var element in allocationList)
m_Logger.LogLine("[{0}] {1}", index++, element);
}
}
#endregion
}
}